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Kimyo fanlaridagi fundamental fan bo‘lgan noorganik kimyo o‘zining mavhum tabiati va murakkab tushunchalari tufayli ko‘pincha talabalar va o‘qituvchilar uchun qiyinchilik tug‘diradi. Ushbu maqolada oliy o‘quv yurtlarida noorganik kimyo fanini o‘qitish va o‘qitish tajribasini yaxshilash uchun zamonaviy axborot texnologiyalari integratsiyasi yoritilgan. Virtual laboratoriyalar, multimedia resurslari, interaktiv simulyatsiyalar va onlayn platformalar kabi raqamli vositalardan foydalangan holda o‘qituvchilar talabalarga dinamik va immersiv o‘rganish tajribasini taqdim etishlari mumkin. Ushbu texnologiyalarni o‘z ichiga olgan holda, o‘qituvchilar mavhum tushunchalarni yanada samaraliroq tasvirlashlari, faol ishtirok etishlarini osonlashtirishlari va shaxsiy o‘rganish imkoniyatlarini taklif qilishlari mumkin. Ushbu vositalar talabalarga an'anaviy auditoriya doirasidan tashqarida o‘quv materiallaridan foydalanish imkonini beradi, o‘z-o‘zini o‘rganishga yordam beradi va umumiy tushunishni kuchaytiradi.

 

  • Ўқишлар сони 79
  • Нашр санаси 29-03-2024
  • Мақола тилиO'zbek
  • Саҳифалар сони92-98
Ўзбек

Kimyo fanlaridagi fundamental fan bo‘lgan noorganik kimyo o‘zining mavhum tabiati va murakkab tushunchalari tufayli ko‘pincha talabalar va o‘qituvchilar uchun qiyinchilik tug‘diradi. Ushbu maqolada oliy o‘quv yurtlarida noorganik kimyo fanini o‘qitish va o‘qitish tajribasini yaxshilash uchun zamonaviy axborot texnologiyalari integratsiyasi yoritilgan. Virtual laboratoriyalar, multimedia resurslari, interaktiv simulyatsiyalar va onlayn platformalar kabi raqamli vositalardan foydalangan holda o‘qituvchilar talabalarga dinamik va immersiv o‘rganish tajribasini taqdim etishlari mumkin. Ushbu texnologiyalarni o‘z ichiga olgan holda, o‘qituvchilar mavhum tushunchalarni yanada samaraliroq tasvirlashlari, faol ishtirok etishlarini osonlashtirishlari va shaxsiy o‘rganish imkoniyatlarini taklif qilishlari mumkin. Ushbu vositalar talabalarga an'anaviy auditoriya doirasidan tashqarida o‘quv materiallaridan foydalanish imkonini beradi, o‘z-o‘zini o‘rganishga yordam beradi va umumiy tushunishni kuchaytiradi.

 

English

Inorganic chemistry, a fundamental discipline in the chemical sciences, often presents challenges for both students and educators due to its abstract nature and complex concepts. This article explores the integration of modern information technologies to improve the teaching and learning experience of inorganic chemistry in higher education institutions. Leveraging digital tools such as virtual laboratories, multimedia resources, interactive simulations, and online platforms, educators can provide students with dynamic and immersive learning experiences. By incorporating these technologies, instructors can illustrate abstract concepts more effectively, facilitate active engagement, and offer personalized learning opportunities. These tools enable students to access educational materials beyond the confines of the traditional classroom, fostering self-directed learning and enhancing overall comprehension.

Русский

Неорганическая химия, фундаментальная дисциплина химических наук, часто представляет проблемы как для студентов, так и для преподавателей из-за своей абстрактной природы и сложных концепций. В данной статье исследуется интеграция современных информационных технологий для улучшения преподавания и изучения неорганической химии в высших учебных заведениях. Используя цифровые инструменты, такие как виртуальные лаборатории, мультимедийные ресурсы, интерактивное моделирование и онлайн-платформы, преподаватели могут предоставить учащимся динамичный и захватывающий опыт обучения. Внедряя эти технологии, преподаватели могут более эффективно иллюстрировать абстрактные концепции, способствовать активному участию и предлагать возможности персонализированного обучения. Эти инструменты позволяют учащимся получать доступ к учебным материалам за пределами традиционного класса, способствуя самостоятельному обучению и улучшая общее понимание.

Ҳавола номи
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2 2. Chiu, J. L., & Linn, M. C. (2019). Supporting Science Learning and Language Learning in Authentic Experiences: Strategies for Promoting English Learners' Engagement in Science Inquiry. Journal of Science Teacher Education, 30(2), 171-191. DOI: 10.1080/1046560X.2019.1560133
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4 4. Cutler, J. E., & Zahra, S. A. (2019). Enhancing Chemistry Learning through Technology-Enabled Education: A Review of Digital Resources and Tools. Journal of Chemical Education, 96(9), 2046-2054. DOI: 10.1021/acs.jchemed.8b01133
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